CN217404582U - Optical module convenient to later stage maintenance - Google Patents
Optical module convenient to later stage maintenance Download PDFInfo
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- CN217404582U CN217404582U CN202221408184.1U CN202221408184U CN217404582U CN 217404582 U CN217404582 U CN 217404582U CN 202221408184 U CN202221408184 U CN 202221408184U CN 217404582 U CN217404582 U CN 217404582U
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- optical module
- hole
- plug
- pressing plate
- pressing
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Abstract
The utility model discloses an optical module convenient to later stage maintenance, including the optical module body, the optical module body is connected with the optical module bayonet joint, the optical module bayonet joint is connected with the positioning wire, the optical module bayonet joint is including connecting the casing, the compression groove has all been seted up to the lateral wall that connects the casing, it has the pressing plate to connect in the compression groove, the pressing plate is connected through pressing the spring and compressing the bottom side of inslot portion, first spliced hole has been seted up to the lateral part in compression groove, first threaded connection hole corresponds with first spliced hole, set up the second spliced hole that runs through the pressing plate in the pressing plate, the pressing plate runs through first spliced hole in proper order through the positioning wire, the second spliced hole is rotatory go into in first threaded connection hole and is connected with joint housing location. Has the advantages that: make optical module and equipment be connected through pressing the plug-in type, the connected mode is simple, convenient to detach, and the maintenance in the later stage of being convenient for has effectively improved the life of optical module.
Description
Technical Field
The utility model relates to an optical module technical field, concretely relates to optical module convenient to later stage maintenance.
Background
The optical module is a photoelectric conversion module, and functions to convert an electrical signal of the device into an optical signal, so that the optical signal can be transmitted in an optical fiber, and has advantages that a cable does not have in transmission, such as transmission distance, transmission rate, and the like. The optical module is only a conversion device and needs to be welded on equipment for use. Although the existing optical module is simple in installation mode, the existing optical module is not convenient to disassemble and maintain in the later period, and the service life of the optical module is seriously shortened.
SUMMERY OF THE UTILITY MODEL
For solving above-mentioned problem comprehensively, especially to the not enough that prior art exists, the utility model provides an optical module convenient to later stage maintenance can solve above-mentioned problem comprehensively.
In order to achieve the above object, the utility model adopts the following technical means:
an optical module convenient for later maintenance comprises an optical module body, wherein an external connection end of the optical module body is connected with an optical module plug-in connector, the optical module plug-in connector is detachably connected with a positioning wire, the optical module plug-in connector comprises a connector shell, the connector shell is sleeved on the outer side of the external connection end of the optical module body, compression grooves are formed in the outer side walls of the connector shell, pressing plates are inserted in the compression grooves and connected with the bottom sides inside the compression grooves through pressing springs, first plug-in holes are formed in the side portions, close to the external connection end of the optical module body, in the compression grooves, the first plug-in holes penetrate through the connector shell, first threaded connection holes are formed in the side portions, far away from the external connection end of the optical module body, in the compression grooves, the first threaded connection holes correspond to the first plug-in holes, and second plug-in holes penetrating through the pressing plates are formed in the pressing plates, when the pressing plate is completely inserted into the compression groove, the second inserting hole corresponds to the first inserting hole and the first threaded connecting hole respectively, and the pressing plate sequentially penetrates through the first inserting hole and the second inserting hole through the positioning wires and rotates into the first threaded connecting hole to be connected with the joint shell in a positioning mode.
Further, the pressing plate is made of a rubber material.
The rubber material has good elasticity and shrinkage performance, meanwhile, the rubber material also has good wear resistance and corrosion resistance, and the pressing plate made of the rubber material has long service life.
Furthermore, the pressing springs are provided with a plurality of groups, and the plurality of groups of pressing springs are uniformly distributed between the bottom side in the compression groove and the bottom of the pressing plate.
The beneficial effects of the pressing plate are that the pressing plate can obtain more upward thrust, the pressing plate can be tightly attached to the positioning point, and the working efficiency of the pressing plate is effectively improved.
Furthermore, the pressing spring is made of elastic steel materials.
The elastic steel material has good elasticity, meanwhile, the elastic steel material also has good wear resistance and corrosion resistance, and the pressing spring made of the elastic steel material has long service life.
Furthermore, a third inserting hole is formed in the corner of the side face, close to the outer connecting end of the optical module body, of the connector shell, and the positioning wire is inserted into the third inserting hole.
The positioning wire has the advantages that the positioning wire can be connected with the optical module plug connector after being detached, so that a user can manage the positioning wire conveniently, and the phenomenon that the positioning wire is lost is effectively prevented.
Furthermore, the deepest end of the third inserting hole, which is far away from the inserting port, is provided with a second threaded connecting hole communicated with the third inserting hole, and the positioning wire is in threaded connection with the second threaded connecting hole.
The optical module plug connector has the beneficial effects that the arrangement can ensure that the positioning wire can be tightly connected with the optical module plug connector after being detached, and the stability of the positioning wire during storage is effectively improved.
The utility model has the advantages that:
the utility model discloses a press the plug-in type and make optical module and equipment connection, the connected mode is simple, convenient to detach, and the maintenance in the later stage of being convenient for has effectively improved the life of optical module. Before the optical module is installed, the positioning wire sequentially penetrates through the first plug hole and the second plug hole and rotates into the first threaded connecting hole, so that the pressing plate is completely inserted into the compression groove, and the optical module body connected with the optical module plug connector is inserted into the position of the positioning point to complete the primary positioning plug work of the optical module; the positioning wire is detached after the optical module plug is completely inserted into the positioning point, and the positioning wire is pulled out of the optical module plug, and at the moment, because the positioning wire is not limited, the pressing plate is pushed outwards under the action of the elastic force of the pressing spring, so that the pressing plate tightly presses the inner wall of the positioning point, and the pressing and plugging work of the optical module is completed quickly; when the optical module is taken out, the inner wall of the connector shell is buckled and pulled outwards, the optical module plug connector can drive the optical module body to rapidly move out of the positioning point, and the moved optical module can rapidly enter maintenance work.
Drawings
FIG. 1 is a schematic view of the present invention;
fig. 2 is a side view of the present invention;
figure 3 is a side cross-sectional view at a in figure 2 of the present invention;
fig. 4 is a side view of the optical module connector of the present invention;
fig. 5 is a side cross-sectional view at B in fig. 4 of the present invention;
figure 6 is a side cross-sectional view of the present invention at C in figure 4;
fig. 7 is a use state diagram of the present invention;
the following are marked in the figure: optical module body 10, optical module plug 20, connector housing 21, first plug hole 22, compression groove 23, pressing plate 24, second plug hole 25, pressing spring 26, first threaded connection hole 27, third plug hole 28, second threaded connection hole 29, positioning wire 30.
Detailed Description
The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Example 1
As shown in fig. 1 to 7, the present invention provides an optical module convenient for later maintenance, including an optical module body 10, an external connection end of the optical module body 10 is connected with an optical module plug 20, the optical module plug 20 is detachably connected with a positioning wire 30, the optical module plug 20 includes a connector housing 21, the connector housing 21 is sleeved outside the external connection end of the optical module body 10, outer side walls of the connector housing 21 are respectively provided with a compression groove 23, a pressing plate 24 is inserted in the compression groove 23, the pressing plate 24 is connected with a bottom side inside the compression groove 23 through a pressing spring 26, a side portion inside the compression groove 23 close to the external connection end of the optical module body 10 is provided with a first plug hole 22, the first plug hole 22 penetrates through the connector housing 21, a side portion inside the compression groove 23 far away from the external connection end of the optical module body 10 is provided with a first threaded connection hole 27, the first threaded connection hole 27 corresponds to the first plug hole 22, a second inserting hole 25 penetrating through the pressing plate 24 is formed in the pressing plate 24, when the pressing plate 24 is completely inserted into the compression groove 23, the second inserting hole 25 corresponds to the first inserting hole 22 and the first threaded connecting hole 27 respectively, and the pressing plate 24 penetrates through the first inserting hole 22 and the second inserting hole 25 in sequence through a positioning wire 30 and rotates into the first threaded connecting hole 27 to be connected with the joint housing 21 in a positioning mode.
Principle of operation
As shown in fig. 1 to 7, before the optical module is mounted, the positioning wire 30 sequentially passes through the first insertion hole 22 and the second insertion hole 25 and rotates into the first threaded connection hole 27, so that the pressing plate 24 is completely inserted into the compression groove 23, and the optical module body 10 connected with the optical module plug 20 is inserted into the position of the positioning point, thereby completing the primary positioning and insertion work of the optical module; after the optical module plug 20 is completely inserted into the positioning point, the positioning wire 30 is detached, and the positioning wire 30 is pulled out from the optical module plug 20, at this time, because the positioning wire 30 is not limited, the pressing plate 24 is pushed outwards under the action of the elastic force of the pressing spring 26, so that the pressing plate 24 tightly presses the inner wall of the positioning point, and the pressing and plugging work of the optical module is completed quickly; when the optical module is taken out, the inner wall of the connector housing 21 is buckled and pulled outwards, the optical module plug 20 can drive the optical module body 10 to rapidly move out of the positioning point, and the moved optical module can rapidly enter maintenance work.
Example 2
As shown in fig. 1 to 7, the present invention provides an optical module convenient for later maintenance, which includes an optical module body 10, an optical module plug 20 is connected to an external connection end of the optical module body 10, the optical module plug 20 is detachably connected to a positioning wire 30, the optical module plug 20 includes a connector housing 21, the connector housing 21 is sleeved outside an external connection end of the optical module body 10, compression grooves 23 are formed on outer sidewalls of the connector housing 21, pressing plates 24 are inserted into the compression grooves 23, the pressing plates 24 are connected to bottom sides inside the compression grooves 23 through pressing springs 26, first plug holes 22 are formed on side portions inside the compression grooves 23 close to the external connection end of the optical module body 10, the first plug holes 22 penetrate through the connector housing 21, first threaded connection holes 27 are formed on side portions inside the compression grooves 23 far away from the external connection end of the optical module body 10, the first threaded connection holes 27 correspond to the first plug holes 22, a second inserting hole 25 penetrating through the pressing plate 24 is formed in the pressing plate 24, when the pressing plate 24 is completely inserted into the compression groove 23, the second inserting hole 25 corresponds to the first inserting hole 22 and the first threaded connecting hole 27, and the pressing plate 24 sequentially penetrates through the first inserting hole 22 and the second inserting hole 25 through a positioning wire 30 and rotates into the first threaded connecting hole 27 to be connected with the joint housing 21 in a positioning mode.
The pressing plate 24 is made of a rubber material. The rubber material has good elasticity and contraction performance, meanwhile, the rubber material also has good wear resistance and corrosion resistance, and the pressing plate 24 made of the rubber material is long in service life.
The pressing springs 26 are provided in plural sets, and the plural sets of pressing springs 26 are uniformly distributed between the bottom side of the inside of the compression groove 23 and the bottom of the pressing plate 24. The arrangement can ensure that the pressing plate 24 obtains more upward thrust, the pressing plate 24 can be closely attached to the positioning point, and the working efficiency of the pressing plate 24 is effectively improved.
The pressing spring 26 is made of an elastic steel material. The elastic steel material has good elasticity, meanwhile, the elastic steel material also has good wear resistance and corrosion resistance, and the pressing spring 26 made of the elastic steel material has long service life.
Example 3
As shown in fig. 1 to 7, the present invention provides an optical module convenient for later maintenance, including an optical module body 10, an external connection end of the optical module body 10 is connected with an optical module plug 20, the optical module plug 20 is detachably connected with a positioning wire 30, the optical module plug 20 includes a connector housing 21, the connector housing 21 is sleeved outside the external connection end of the optical module body 10, outer side walls of the connector housing 21 are respectively provided with a compression groove 23, a pressing plate 24 is inserted in the compression groove 23, the pressing plate 24 is connected with a bottom side inside the compression groove 23 through a pressing spring 26, a side portion inside the compression groove 23 close to the external connection end of the optical module body 10 is provided with a first plug hole 22, the first plug hole 22 penetrates through the connector housing 21, a side portion inside the compression groove 23 far away from the external connection end of the optical module body 10 is provided with a first threaded connection hole 27, the first threaded connection hole 27 corresponds to the first plug hole 22, a second inserting hole 25 penetrating through the pressing plate 24 is formed in the pressing plate 24, when the pressing plate 24 is completely inserted into the compression groove 23, the second inserting hole 25 corresponds to the first inserting hole 22 and the first threaded connecting hole 27, and the pressing plate 24 sequentially penetrates through the first inserting hole 22 and the second inserting hole 25 through a positioning wire 30 and rotates into the first threaded connecting hole 27 to be connected with the joint housing 21 in a positioning mode.
A third plugging hole 28 is formed at a corner of a side surface of the connector housing 21 close to the outer connection end of the optical module body 10, and the positioning wire 30 is plugged with the third plugging hole 28. The arrangement can ensure that the positioning wire 30 can be connected with the optical module plug 20 after being detached, so that a user can manage the positioning wire 30 conveniently, and the phenomenon that the positioning wire 30 is lost is effectively prevented.
The deepest end of the third inserting hole 28 far away from the inserting port is provided with a second threaded connecting hole 29 communicated with the third inserting hole 28, and the positioning wire 30 is in threaded connection with the second threaded connecting hole 29. The arrangement can ensure that the positioning wire 30 can be firmly connected with the optical module plug 20 after being detached, and the stability of the positioning wire 30 during storage is effectively improved.
The present invention is illustrated by way of example and not by way of limitation. It will be apparent to those skilled in the art that other variations and modifications of the present invention can be made in light of the above teachings, and it is not necessary or necessary to exhaustively enumerate all embodiments herein, and it is intended that all such obvious variations and modifications are within the scope of the present invention.
Claims (6)
1. An optical module convenient for later maintenance is characterized by comprising an optical module body (10), wherein an external connection end of the optical module body (10) is connected with an optical module plug-in connector (20), the optical module plug-in connector (20) is detachably connected with a positioning wire (30), the optical module plug-in connector (20) comprises a connector shell (21), the connector shell (21) is sleeved on the outer side of the external connection end of the optical module body (10), compression grooves (23) are formed in the outer side walls of the connector shell (21), pressing plates (24) are inserted in the compression grooves (23), the pressing plates (24) are connected with the bottom sides inside the compression grooves (23) through pressing springs (26), first plug-in holes (22) are formed in the side parts, close to the external connection end of the optical module body (10), of the compression grooves (23), and the first plug-in holes (22) penetrate through the connector shell (21), the side part, far away from the outer connection end of the optical module body (10), of the compression groove (23) is provided with a first threaded connection hole (27), the first threaded connection hole (27) corresponds to the first plug-in hole (22), a second plug-in hole (25) penetrating through the pressing plate (24) is formed in the pressing plate (24), when the pressing plate (24) is completely inserted into the compression groove (23), the second plug-in hole (25) corresponds to the first plug-in hole (22) and the first threaded connection hole (27) respectively, and the pressing plate (24) sequentially penetrates through the first plug-in hole (22) and the second plug-in hole (25) through a positioning wire (30) and rotates into the first threaded connection hole (27) to be connected with the connector shell (21) in a positioning mode.
2. A post-repair-facilitating optical module according to claim 1, wherein the pressing plate (24) is made of a rubber material.
3. An optical module convenient for later maintenance according to claim 1, characterized in that the pressing springs (26) are provided with a plurality of groups, and the groups of pressing springs (26) are uniformly distributed between the bottom side inside the compression groove (23) and the bottom of the pressing plate (24).
4. A post-repair-facilitating optical module according to claim 3, wherein the pressing spring (26) is made of a resilient steel material.
5. The optical module convenient for later maintenance according to claim 1, wherein a corner of a side surface of the connector housing (21) close to the outer connection end of the optical module body (10) is provided with a third insertion hole (28), and the positioning wire (30) is inserted into the third insertion hole (28).
6. The optical module convenient for later maintenance according to claim 5, wherein a second threaded connection hole (29) communicated with the third plug hole (28) is formed at the deepest end of the third plug hole (28) far away from the plug port, and the positioning wire (30) is in threaded connection with the second threaded connection hole (29).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221408184.1U CN217404582U (en) | 2022-06-08 | 2022-06-08 | Optical module convenient to later stage maintenance |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221408184.1U CN217404582U (en) | 2022-06-08 | 2022-06-08 | Optical module convenient to later stage maintenance |
Publications (1)
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CN217404582U true CN217404582U (en) | 2022-09-09 |
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CN202221408184.1U Active CN217404582U (en) | 2022-06-08 | 2022-06-08 | Optical module convenient to later stage maintenance |
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CN (1) | CN217404582U (en) |
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2022
- 2022-06-08 CN CN202221408184.1U patent/CN217404582U/en active Active
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